length widthdepth
That depends on the volume of the brick. Whatever its volume is, its weight underwater is(weight of the brick in air) minus (weight of an equal volume of water)
what is the density of a brick with a volume of 0.0010m and a mass of 1.9kg
Submersion method: fill a container and mark its volume. Place the brick in the water. Measure the new level. Calculate the volume difference from before and after. Dimension-measuring method: measure the length, width and depth of the brick, Multiply them together.
Yes, but of course it will require math. cm is centimeters, a form of measurement and a brick is a rectangular prism. So then, when you measure the dimensions of a brick, you do Volume=(length)x(width)x(height) and that's how you find the volume of a brick using cm.
Oh, dude, you're really asking me about the volume of a brick? Well, a standard brick is usually around 2 x 4 x 8 inches, so if you multiply those dimensions together, you get the volume, which is 64 cubic inches. But like, who really cares about the volume of a brick, right?
To find the volume of a 100-pound brick of gold, we first need to know the density of gold, which is approximately 19.32 grams per cubic centimeter. Since 1 pound is about 453.592 grams, a 100-pound brick weighs approximately 45,359.2 grams. Using the formula for volume (volume = mass/density), the volume of the gold brick is about 2,347.7 cubic centimeters.
14.5 Cubic Inches.
volume
No, take brick and a pillow. By volume, the pillow is the biggest, but it is lighter than the brick.
No, the volume of a 2-kilogram iron brick would not be twice that of a 1-kilogram iron brick. The weight of an object does not directly correlate with its volume, as volume is determined by the dimensions and density of the object, not just its weight.
Density is defined as mass divided by volume, therefore: 100g/25cm3 = 4 g/cm3
Density = Mass/Volume = 150g / 50cm3 = 150/50 g per cm3 = 3 g per cm3